PROTOPLASM AND THE CELL. 
Gen. Sub, 47 
& Siedlecki (379). — The theory of panplasm : all the vital materials 
by their interaction produce the vital phenomena of protoplasm. These 
vital phenomena depend upon the arrangement and composition of the 
multifarious constituents of protoplasm ; Minot (471). — The physical 
basis of life ; the importance of nitrogen as the critical element in 
metabolism; Allen, F. J. (7). — Physiology of protoplasm; Alt- 
mann’s granulations ; Zanier (735). — Protoplasm as affected by chemi- 
cal reagents and other influences ; Davenport (151). — Structure of 
protoplasm in nerve-cells ; Ramon y Cajal (552). 
Polar stimulation of living matter; Veeworn (G79). — Polar stimula- 
tion of living matter by an electric current ; Roux (587). — Limits of 
'divisibility of living matter ; Lillie (415). 
b. Cell , Structure and Function. 
General treatise on the cell [and Protozoa ] ; Del age & HerOuard 
(157). — General book on the cell, especially re structure and multiplica- 
tion; Henneguy (318). — Report ou the cell ; Flemming (229). — New 
views on the cell ; Marpmann (444). — Cell-structure ; Wilson (720). — 
The cell and some of its supposed structures ; Farmer (212). — General 
account of cell-structure, particularly of relations of centrosomes and 
cytoplasm; Kostanecki & Siedlecki (379). — Cell-boundaries ; Schulze 
1(618). 
Physiology of the cell : Experiments on Rhizopods, (a) The material 
transport of plasmic material and the propagation of a stimulus are 
quite distinct results of stimulation. (5) Removal of oxygen first 
affects expansion of pseudopodia, then retraction, and ends by inducing 
total paralysis, (c) The maximum thermal stimulus for expansion is 
^quite different from that for contraction ; Yerworn (080). — Cell- 
chemistry and cell-physiology ; Wilson (720). — Polar relations of the 
cell ; Lanow (396). — The essential part of the cell; Allmann (11). — 
The cell and its life ; Gander (247). — Historical sketch of cell-theory ; 
Wilson (720). — Criticism of the cell-theory ; Sedgwick (625, 627, 
•628). — Present position of the cell-theory ; Bourne (78). 
Minute structure of epithelial cells ; von Erlanger (203). — Paths of 
nutrition in epithelial cells ; Czermak (145). 
The structural and physiological nervous unit ; MacKendrick (434). 
— Reticular structure of central nerve-cells ; Sczawinska (624). — 
Morphology of the nerve-cell; Ramon y Cajal (550). — Relation between 
structure and function of nerve-cells; Staderini (644).— Influence of 
strong currents of electricity on nerve-cells; Fish (226). — Granula and 
intergrauula ; Altmann (10). — The granula question ; Munden (490,491). 
— Cell-granulations ; Buchanan (93). — Cell-granulations. Those in red 
blood-corpuscles of tadpoles are not vitelline, as Ranvier supposed, but 
consist of a special refractive viscous albuminoid substance [eritrocitina]. 
They appear to be the same as those in the lamprey, which have a nuclear 
origin and a role in producing haemoglobin ; Giglio-Tos (264). 
Biological phenomena of amoeboid cells ; Cattaneo (106). 
Cy to taxis of segmentation-cells ; Roux (582). 
Tactic irritability of mesenchyme cells of sea-urchin ; Driescii (170). 
— Continuity of mesenchyme cells in Echinoid larvae ; MacBride 
i(429). 
Apparent contraction of the entire chromatoph ore-cell, and retraction 
of the processes in larval Salamanders ; Fischel (223). 
Structure of coagulable substances ; Butsciili (97, 98). 
Critical review of Roux’ work on cytotropism ; Dreyer (166). 
Energids and paraplastic structures ; Kurffer (386). 
